Abstract: An apparatus includes a lamination stack for a motor stator. The lamination stack comprises a plurality of conductive laminates. The laminates are coupled to each other in a stacking direction along a stacking axis. Each laminate comprises a base, a plurality of fins extending from a first side of the base, a plurality of spacings between the fins, a row of teeth extending from a second side of the base opposite the first side, each tooth constructed and arranged to communicate with windings of a conductive coil, and a plurality of spacings between the teeth. The lamination stack also comprises a plurality of first channels formed from the spacings between the fins and a plurality of second channels formed from the spacings between the teeth. The first and second channels extend along the stacking axis.

Abstract: An apparatus includes a lamination stack for a motor stator. The lamination stack comprises a plurality of conductive laminates. The laminates are coupled to each other in a stacking direction along a stacking axis. Each laminate comprises a base, a plurality of fins extending from a first side of the base, a plurality of spacings between the fins, a row of teeth extending from a second side of the base opposite the first side, each tooth constructed and arranged to communicate with windings of a conductive coil, and a plurality of spacings between the teeth. The lamination stack also comprises a plurality of first channels formed from the spacings between the fins and a plurality of second channels formed from the spacings between the teeth. The first and second channels extend along the stacking axis.

Abstract: A drive housing (24) including a housing cover wall (56), a housing base wall (53) having at least one wall aperture (32), and one or more housing side walls (54) that secure the housing base wall (53) to the housing cover wall (56). The drive housing (24) also includes at least one connector (28) that carries electrical signals through the drive housing (24). Each connector (28) extends through a corresponding wall aperture (32). The drive housing (24) also includes a sealer (30) that seals each connector (28) to the housing base wall (53). The housing base wall (53) has a wall coefficient of thermal expansion, and the sealer (30) has a sealer coefficient of thermal expansion. Preferably, the wall coefficient of thermal expansion is substantially similar to the sealer coefficient of thermal expansion. As a consequence, leakage of gas through the drive housing (24) of the disk drive (10) is significantly reduced.

Abstract: A drive housing (24) including a housing cover wall (56), a housing base wall (53) having at least one wall aperture (32), and one or more housing side walls (54) that secure the housing base wall (53) to the housing cover wall (56). The drive housing (24) also includes at least one connector (28) that carries electrical signals through the drive housing (24). Each connector (28) extends through a corresponding wall aperture (32). The drive housing (24) also includes a sealer (30) that seals each connector (28) to the housing base wall (53). The housing base wall (53) has a wall coefficient of thermal expansion, and the sealer (30) has a sealer coefficient of thermal expansion. Preferably, the wall coefficient of thermal expansion is substantially similar to the sealer coefficient of thermal expansion. As a consequence, leakage of gas through the drive housing (24) of the disk drive (10) is significantly reduced.